旋转光力系统中光的响应——非互换性
Optical Response of Rotating Optomechanical System—Nonreciprocity
DOI: 10.12677/MP.2022.124011, PDF,    科研立项经费支持
作者: 李晓霞, 程绪信:肇庆学院物理系,广东 肇庆;李广安:肇庆学院基建处,广东 肇庆
关键词: 二次谐振光力学系统非互换性Second Harmonic Optomechanical System Nonreciprocity
摘要: 本文分析了腔光力学系统中的探测光的传输特性,此系统由旋转的双模腔和一个力学振子构成,当驱动场从左方或右方传输时,考虑萨格纳克效应对探测场响应的影响。通过研究透射谱,发现光在传输过程中表现出非互换行为。我们期望该方案在信息处理和光通讯方面有一定的应用。
Abstract: We analyzed the optical transmission of the optomechanical system, which consists of rotating doublemode cavities and a mechanical resonator. When it is drived by a strong field from the left side or the right side, the probe optical response is considered under the Sagnac effect. For the spectrum of the output field, it shows the nonreciprocal transmission behavior. We expect that this scheme may be applicable in information processing and optical communication in the future.
文章引用:李晓霞, 程绪信, 李广安. 旋转光力系统中光的响应——非互换性[J]. 现代物理, 2022, 12(4): 108-114. https://doi.org/10.12677/MP.2022.124011

参考文献

[1] Aspelmeyer, M., Kippenberg, T.J. and Marquardt, F. (2014) Cavity Optomechanics. Reviews of Modern Physics, 86, 1391-1452. [Google Scholar] [CrossRef
[2] Agarwal, G.S. and Huang, S. (2010) Electromag-netically Induced Transparency in Mechanical Effects of Light. Physical Review A, 81, Article ID: 041803. [Google Scholar] [CrossRef
[3] Vitali, D., Gigan, S., Ferreira, A., et al. (2007) Optomechanical Entanglement between a Movable Mirror and a Cavity Field. Physical Review Letters, 98, Article ID: 030405. [Google Scholar] [CrossRef
[4] Rabl, P. (2011) Photon Blockade Effect in Optomechanical Systems. Physical Review Letters, 107, Article ID: 063601. [Google Scholar] [CrossRef
[5] Feng, L., Ayache, M., Huang, J., Xu, Y.-L., Lu, M.-H., Chen, Y.-F., et al. (2011) Nonreciprocal Light Propagation in a Silicon Photonic Circuit. Science, 333, 729-733. [Google Scholar] [CrossRef] [PubMed]
[6] Miri, M.A., Ruesink, F., Verhagen, E. and Alù, A. (2017) Optical Nonreciprocity Based on Optomechanical Coupling. Physical Review Applied, 7, Article ID: 064014. [Google Scholar] [CrossRef
[7] Sounas, D.L. and Alù, A. (2017) Nonreciprocal Photonics Based on Time Modulation. Nature Photonics, 11, 774-783. [Google Scholar] [CrossRef
[8] Jalas, D., Petrov, A., Eich, M., Freude, W., Fan, S., Yu, Z., et al. (2013) What Is and What Is Not an Optical Isolator. Nature Photonics, 7, 579-582. [Google Scholar] [CrossRef
[9] Lépinary de, L.M., Damskagg, E., Ockeloen-Korppi, C.F. and Sil-lanpaa, M.A., (2019) Realization of Directional Amplification in a Microwave Optomechanical Device. Physical Review Applied, 11, Article ID: 034027. [Google Scholar] [CrossRef
[10] Maayani, S., Dahan, R., Kligerman, Y., Moses, E., Hassan, A.U., Jing, H, et al. (2018) Flying Couplers above Spinning Resonators Generate Irreversible Refraction. Na-ture, 558, 569-572. [Google Scholar] [CrossRef] [PubMed]
[11] Mukherjee, K. and Jana, P.C. (2021) Probe Response of a Two-Mode Cavity with (2) Nonlinearity, Nonreciprocity and Slow and Fast Light. Applied Physics B, 127, Article No. 168. [Google Scholar] [CrossRef
[12] Post, E.J. (1967) Sagnac Effect. Reviews of Modern Physics, 39, 475-49. [Google Scholar] [CrossRef
[13] Chow, W.W., Banacloche, J.G., Pedrotti, L.M., Sanders, V.E., Schleich, W. and Scully, M.O. (1985) The Ring Laser Gyro. Reviews of Modern Physics, 57, 61-104. [Google Scholar] [CrossRef
[14] Gardiner, C.W. and Collett, M.J. (1985) Input and Output in Damped Quantum Systems: Quantum Stochastic Differential Equations and the Master Equation. Physical Re-view A, 31, 3761-3774. [Google Scholar] [CrossRef
[15] Chen, J., Levine, Z.H. and Wilkins, J.W. (1995) Calculated Sec-ond Harmonic Susceptibilities of BN, AIN, and GaN. Applied Physics Letters, 66, 1129-1131. [Google Scholar] [CrossRef
[16] Yang, Z., Chak, P., Bristow, A.D., van Driel, H.M., Iyer, R., Aitchison, J.S., et al. (2007) Enhanced Second Harmonic Generation in AlGaAsmicroring Resonators. Optics Letters, 32, 826-828. [Google Scholar] [CrossRef
[17] Bergfeld, S. and Daum, W. (2003) Second Harmonic Generation in GaAs: Experiment versus Theoretical Predictions of xyz(2). Physical Review Letters, 90, Article ID: 036801. [Google Scholar] [CrossRef